Composition and process for treating metal surfaces

ABSTRACT

A non-chromate conversion coating for metal surfaces such as aluminum, steel, galvanized steel and zinc-aluminum steel consisting of an aqueous solution of a cationic polymer, an alkaline aqueous silicate and an organofunctional silane.

This application is a continuation-in-part of application Ser. No. 08/152,806 filed Nov. 16, 1993, U.S. Pat. No. 5,389,405.

FIELD OF THE INVENTION

The present invention relates to the process of coating metals to improve the corrosion resistance and adhesion properties of the metal's surface. Specifically, the present invention relates to a single non-chromium treatment that is equally effective on many different metal surfaces. Such metals include aluminum, steel, zinc coated steel and zinc-aluminum coated steel.

BACKGROUND OF THE INVENTION

The purpose of conversion coatings on metal surfaces are to provide corrosion resistance and improve the adhesion of the ultimate coating(s). The conversion coating improves the adhesion of final coating layers such as paints, inks, lacquers and plastics.

Traditionally, chromates have been utilized as conversion coating compounds. Chromates are known to exhibit acceptable performance on different types of metals or alloys, such as aluminum, steel, galvanized steel and zinc-aluminum coated steel. Chromate conversion coatings are typically administered by contacting the metal surface with an aqueous solution containing hexavalent or trivalent chromium ions, phosphate ions or fluoride ions. Serious concerns have been raised, however, regarding the pollution effects of the chromate or phosphate discharged into rivers or waterways by such processes. Due to the high solubility and the strongly oxidizing character of hexavalent chromium ions, conventional chromate conversion coating processes require extensive waste treatment procedures to control their discharge.

While many acceptable chromium-free conversion coatings have been developed, their utility is often limited to only one type of metal substrate. Many industrial operations, however, involve the sequential processing of different types of metals. Unless the undesirable chromium compounds are used, the industrial metal processor is forced to change the conversion coating bath for each different type of metal. This results in unacceptable downtime and higher processing costs.

It is desirable, therefore, to have a conversion coating compound which is equally effective on more than one type of metal. This is achieved by the composition and process of the present invention.

SUMMARY OF THE INVENTION

The present inventors have discovered a metal conversion coating which enhances the corrosion resistance and the adhesion properties of the surface of the metal. It provides excellent paint adhesion and corrosion resistance. The coating of the present invention is formed from an aqueous solution containing an alkaline aqueous silicate, a cationic agent and, optionally, an organofunctional silane.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

The present inventors have discovered an effective method of pre-treating metal surfaces by first applying to the surface an aqueous solution of a cationic agent and an alkaline aqueous silicate followed, if desired or needed, by an aqueous organofunctional silane solution. Alternatively, all materials may be combined into a single solution and applied to the target metal surface in a single application.

The unique feature of the conversion coating composition of the present invention is that it forms an effective coating on the surfaces of metals such as aluminum, steel, zinc coated steel (galvanized) and zinc-aluminum coated steel (Galvalume®).

The alkaline silicates used in this invention are derived from either ortho- or condensed Silicates. Water soluble salts of the following inorganic anions, in particular the sodium, potassium and ammonium salts thereof, may be used in the practice of this invention. Such compounds are:

Metasilicate--SiO₃ ²⁻

Orthosilicate--SiO₄ ⁴⁻

Disilicate--Si₂ O₅ ⁻²

Mixed Silicates--Na₂ O.xSiO₂ (where x=1-5)

Aluminosilicates--Na₂ O.xAl₂ O₃.ySiO₂ (where x+y=3-5)

The preferred inorganic silicates are alkaline di- and meta- silicates where the ratio of SiO₂ to Na₂ O is from about 2 to 1 to about 1 to 1.

The cationic agents of the present invention are cationic polymers which are of low to medium molecular weight, have a high charge density and may be cross-linked or linear condensation or addition polymers. Their number average molecular weight ranges between 1,000 and 600,000 and they are water soluble. The charge densities, as determined by the PVSK Colloid Titration Method (H. Terayama, Kayaku no Kenkya, Vol. 1, p. 75, 1948; H. Terayama, Kayaku no Kenkya, Vol. 4, p. 31, 1949; R. Senju, "Koroido Tekiteiho", Nankodo, Tokyo, 1969), are active in the range of about 1.5 to 12.0 meq/g active polymer.

Those polymers, which have demonstrated the desired performance characteristics, are:

    ______________________________________                                         Polymer  Description                                                           ______________________________________                                         I        Polydiallyl dimethyl ammonium chloride                                         (available from CPS Chemical as Age Flex)                             II       condensation product of dimethylamine plus                                     epichlorohydrin plus ethylenediamine                                           (available from American Cyanamid as                                           Magnifloc 581C)                                                       III      condensation product of dimethylamine plus                                     epichlorohydrin (U.S. Pat. No. 3,738,945)                             IV       condensation product of diethylenetriamine                                     plus adipic acid plus epichlorohydrin (Betz                                    Laboratories, Inc., Polymer 1175)                                     V        condensation product of hexamethylenediamine                                   still bottoms plus ethylene dichloride plus                                    epichlorohydrin (available from Monsanto as                                    Santofloc F)                                                          ______________________________________                                    

The organofunctional silanes are hydrolyzed and are prepared from the respective alkoxysilanes where one or more alkoxide groups are converted to a silanol (Si--OH, or Si--O⁻) function through acid or base hydrolysis. These may be prepared from a wide variety of organofunctional alkoxysilanes. The techniques are familiar to those practiced in the art and are readily available in the literature. See, for example, E. P. Pluddemann, "Silane Coupling Agents", 2nd. ed., Plenum Press, 1991, chapter 2, herein incorporated by reference.

The organofunctional silanes which exhibit the desired utility in this invention are aminosilanes. The preferable aminosilane is a hydrolyzed aminopropyltrimethoxysilane. This compound is commercially available as an approximately 20% active aqueous solution from Huls America and is designated as Hydrosil 2627.

The alkaline silicate and cationic polymer may be applied either as a single aqueous solution, or in sequence with or without an intervening rinse step, depending on the solubilities of the materials. Concentrations are from about 0.01 to about 0.07 molar of the alkaline silicate. For the cationic polymers, a weight ratio of about from 10 to about 700 grams of polymer solids per mole of silicate is utilized. For the organofunctional silane, a weight ratio of about 5 to about 250 grams of organosilane solids per mole of silicate is utilized. The treatment solution can comprise from 0.008% to 0.2% cationic polymer, approximately 0.005% to 0.12% alkaline aqueous silicate (expressed as SiO₂) and approximately 0.01% to 0.25% organofunctional silane. A concentrate of the treatment solution can comprise from about 0.08% to 2% cationic polymer, from about 0.5% to 1.2% alkaline aqueous silicate and from about 1.0% to 2.5% organofunctional silane. A preferred pretreatment process comprises a solution which contains from 0.01 to 0.02 molar alkaline silicate with from 1.0 to 1.3 g/l of cationic polymer solids. This is followed by an optional water rinse and then application of a solution of 10 to 13 g/l of the organofunctional silane.

The treatment solution(s) may be applied to the metal surface to be treated by any conventional means such as spraying, wetting by dip squeegee, flow coating, roll coating and the like. Roll coating is generally preferred. The final solution of the present invention is preferably dried in place.

The following illustrative scheme summarizes the several possible sequences of application contemplated in this invention. In the scheme, "+" denotes that the agents are combined in solution, "/" denotes a separate solution or stage and "^(*) " denotes that the step may be omitted.

alkaline silicate/rinse^(*) /cationic polymer/rinse^(*) /organofunctional silane

alkaline silicate+cationic polymer/rinse^(*) /organofunctional silane

alkaline silicate+cationic polymer+organofunctional silane.

EXAMPLES

The present invention will now be further described with reference to a number of specific examples which are to be regarded solely as illustrative and not as restricting the scope of the present invention.

Example 1

The following test procedure was followed. Hot dipped galvanized steel panels were obtained from ACT Corp. They were spray cleaned with a hot alkaline surfactant solution in water, rinsed, passed through squeegee rolls to remove most of the water, and then spin-coated by flooding the panel surface with the solutions below. The wet panels were spun for 10 sec. after the solution was applied. The panels were dried in place on the spinner with a stream of hot air.

Comparative pretreatment solutions are as follows:

    ______________________________________                                         A.       15% Betz Permatreat 1006, a non-Cr                                             pretreatment for galvanized steel containing                                   dihydrofluorozirconic acid and an acrylic                                      acid copolymer.                                                       B.       11% Betz Permatreat 1500, a mixed                                              hexavalent-trivalent chromium pretreatment                                     containing silicon dioxide.                                           C.       15% Betz Permatreat 1500.                                             D.       1.2% solution of the product of Example 13                                     of WO 85/05131 (utilizes a chromate based                                      final rinse).                                                         ______________________________________                                    

The panels were painted with a two-coat epoxy/fluorocarbon paint system specified for galvanized steel, and cured in accordance with the manufacturer's specifications.

The adhesion and corrosion performance of the treated and painted galvanized steel were evaluated using a Wedge Bend test and a 500 hour Neutral Salt Spray test, respectively. In the Wedge Bend test, a tapered 180 degree bend in the metal is formed by first turning it to a radius of about 0.5 cm and then flattening the metal to a near zero radius. The stressed surface is then subjected to a tape pull, and the amount of paint loss (in mm) is recorded. 0 mm is perfect. Neutral Salt Spray (NSS) tests were carried out in accordance with ASTM B-117, with the scribe and rating methods following ASTM D-1654 Test Method B, Procedure A 7.2. The ratings are from 0 to 10 (10=perfect).

In some cases, a condensing humidity test was employed. This test followed the protocol of National Coil Coaters' Association Technical Bulletin No. III-3 and III-6. Blistering is rated on a scale of 0 to 10 (10=perfect).

The response of adhesion and corrosion performance from the sequential application of the silicate and the cationic polymer will be appreciated from the following table:

                  TABLE I                                                          ______________________________________                                                                             500 hr                                     Silicate         Polymer  Wedge Bend                                                                               NSS Average                                (molar)                                                                               Polymer   g/l solids                                                                              mm loss   Scribe Rating                              ______________________________________                                         .0125            0        26        5.5                                        .0125  III       0.25     23        6.0                                        .0125  III       1.0      13        5.8                                        0      III       1.0      44        5.2                                        .0125  II        0.31     26        5.0                                        .0125  II        1.25     0         6.5                                        0      II        1.25     31        5.8                                        Comparative Pretreatment A:                                                                      11          5.5                                              Comparative Pretreatment B:                                                                      0           6.5                                              ______________________________________                                    

Example 2

The process of Example 1 was repeated, using calcium nitrate solution in some cases. From the following table the adhesion benefit of the calcium treatment may be seen and contrasted to the adhesion and corrosion benefit of the cationic polymer:

                  TABLE II                                                         ______________________________________                                         Silicate          Wedge Bend  500 hr. NSS Average                              (molar)                                                                               Second Stage                                                                              mm loss     Scribe Rating                                    ______________________________________                                         0      none       39          3.3                                              .005   none       25          5.0                                              .005   .005M      17          3.3                                                     Ca(NO.sub.3).sub.2                                                      .005   .25 g/l solids                                                                            8           5.5                                                     Polymer III                                                             Comparative   24          6.2                                                  Pretreatment B:                                                                ______________________________________                                    

Example 3

The process of Example 1 was followed, except that a different topcoat paint was used. For comparison, the polymer and the silicate were applied from the same solution in some cases.

                  TABLE III                                                        ______________________________________                                                                           500 hr.                                                            Wedge Bend  NSS Average                                  First Stage                                                                              Second Stage                                                                               mm loss     Scribe Rating                                ______________________________________                                         .0125M silicate                                                                          0.85 g/l solids                                                                            40          2.75                                                   of Polymer IV                                                        .0125M silicate                                                                          1.0 g/l solids                                                                             53          0.5                                                    of Polymer III                                                       .0125M silicate                                                                          1.25 g/l solids                                                                            42          0                                                      of Polymer II                                                        .0125M silicate       21          5.25                                         combined with                                                                  1.25 solids of                                                                 Polymer II                                                                     Comparative Pretreatment A:                                                                      41          6.25                                             Comparative Pretreatment B:                                                                      30          7.25                                             ______________________________________                                    

Example 4

The process of Example 3 was followed, except that either an epoxy-functional silane (Huls Hydrosil 2759) or an aminofunctional silane (Huls Hydrosil 2627) was also used in some cases:

                                      TABLE IV                                     __________________________________________________________________________                        Wedge Bend                                                                             500 hr. NSS Average                                 First Stage                                                                              Second Stage                                                                            mm loss Scribe Rating                                       __________________________________________________________________________     .0125M silicate +                                                                        5.0 g/l Hydrosil                                                                        10      8.8                                                 1.25 g/l solids                                                                          2627                                                                 of Polymer II                                                                  .0125M silicate +                                                                        5.0 g/l Hydrosil                                                                        25      5.8                                                 1.25 g/l solids                                                                          2759                                                                 of Polymer II                                                                  .0125M silicate                                                                          1.25 g/l solids                                                                         25      6.0                                                           of Polymer II +                                                                5.0 g/l Hydrosil                                                               2627                                                                 .0125M silicate                                                                          1.25 g/l solids                                                                         23      0                                                             of Polymer II +                                                                5.0 g/l Hydrosil                                                               2759                                                                 .0125M silicate +  10      7.5                                                 1.25 g/l solids                                                                of Polymer II +                                                                5.0 g/l Hydrosil                                                               2627                                                                           .0125M silicate +  45      4.0                                                 1.25 g/l solids                                                                of Polymer II +                                                                5.0 g/l Hydrosil                                                               2759                                                                           __________________________________________________________________________

The organofunctional silane could not be combined with the silicate without the polymer present, as it precipitated.

Example 5

The process of Example 3 was followed, using a different paint system from a different manufacturer. The primer was an epoxy and the topcoat was a siliconized polyester. The metal was pretreated using separate and combined solutions, and the aminofunctional silane was also used in some cases:

                  TABLE V                                                          ______________________________________                                                                     Wedge  500 hr. NSS                                 First    Second    Third    Bend   Average Scribe                              Stage    Stage     Stage    mm loss                                                                               Rating                                      ______________________________________                                         .0125M sili-                28     1.0                                         cate + 1.25                                                                    g/l solids of                                                                  Polymer II                                                                     .0125M sili-                27     6.0                                         cate + 1.25                                                                    g/l solids of                                                                  Polymer                                                                        II + 5.0 g/l                                                                   Hydrosil 2627                                                                  .0125M sili-                                                                            1.25 g/l  5.0 g/l  24     6.5                                         cate     solids of Hydrosil                                                             Polymer II                                                                               2627                                                        ______________________________________                                    

Example 6

Three-component pretreatment solutions were prepared over a range of component concentrations in order to test the limits of solubility and efficacy. (As noted in Example 4, the organo functional silane could not be combined with the silicate unless the polymer was present, as it precipitated.) The homogeneities of the solutions were evaluated as follows:

                  TABLE VI                                                         ______________________________________                                         10:         Clear                                                              9:          Trace light scattering                                             8:          Moderate light scattering                                          7:          Cloudy, but homogeneous                                            5:          Opaque                                                             1:          Slight precipitate                                                 0:          Heavy precipitate                                                  ______________________________________                                                 Sodium                                                                         Silicate Polymer II Hydrosil                                                                               Homogeneity                                Solution                                                                               (Mol/l)  (g/l solids)                                                                              2627 (g/l)                                                                             Rating                                     ______________________________________                                         D       .01      4.0        2.0     9                                          E       .04      1.0        2.0     0                                          F       .01      1.0        8.0     9                                          G       .04      4.0        8.0     7                                          H       .01      2.5        5.0     10                                         I       .025     2.5        8.0     8                                          J       .01      1.0        2.0     9                                          K       .04      1.0        8.0     0                                          L       .025     4.0        5.0     8                                          M       .01      4.0        8.0     9                                          N       .063     6.3        5.0     7                                          O       .063     6.3        12.5    5                                          P       .063     2.5        12.5    0                                          Q       .063     2.5        5.0     0                                          R       .025     5.0        2.0     9                                          S       .025     5.0        8.0     8                                          T       .025     1.0        2.0     1                                          U       .04      5.0        2.0     8                                          V       .01      6.3        12.5    10                                         ______________________________________                                    

Thus, a ratio of Polymer II to silicate greater than or equal to 100 g per mole of silicate was required for homogeneity.

Example 7

From Example 6, solutions F, G, J, M, N, O, U, and V were used in an Experimental Design study to pretreat galvanized steel, using the process of Example 5. Experimental Design Analysis is a technique familiar to those practiced in the art to maximize the information available from multivariable experiments. (These settings were used as "Inclusions" in a "D-Optimal" Experimental Design, restricted to Polymer II:silicate ratios >=100 g/mol, analyzed using a quadratic model with low significance terms eliminated.)

In addition to the performance tests above, condensing humidity exposure was also evaluated per National Coil Coaters' Association Technical Bulletin No. III-3 and III-6. (A rating of 10 denotes no blistering occurred.) The test duration was 216 hours.

                                      TABLE VII                                    __________________________________________________________________________                                Condensing                                          Solution                                                                            Sodium                                                                              Polymer    Wedge Humidity                                                                              500 Hr.                                      (Example                                                                            Silicate                                                                            II (g/l                                                                             Hydrosil                                                                             Bend  216 hr.                                                                               NSS Avg.                                     6)   (Mol/l)                                                                             solids)                                                                             2627 (g/l)                                                                           Loss (mm)                                                                            Avg. Rating                                                                           Rating                                       __________________________________________________________________________     F    .01  1.0  8.0   10    9.0    7.0                                          G    .04  4.0  8.0   19    3.5    6.0                                          J    .01  1.0  2.0   40    8.0    7.0                                          M    .01  4.0  8.0   12    5.0    5.5                                          N    .063 6.3  5.0   23    3.0    4.3                                          O    .063 6.3  12.5  10    4.5    4.8                                          U    .04  5.0  2.0   29    3.0    3.3                                          V    .01  6.3  12.5  28    4.0    5.5                                          __________________________________________________________________________

Results of the numerical analyses indicated that preferred conditions for performance were lower concentrations of silicate and polymer, and higher concentrations of the silane. This is also apparent on comparing results for solution F vs. G, J and M.

Example 8

A concentrate suitable for dilution was prepared at five times the concentrations of the components of solution F. It was a stable, homogeneous mixture exhibiting light scattering typical of a colloid. This solution was diluted to 25% and used to pretreat galvanized steel, using the process and paint system of Example 1. The test duration for condensing humidity was 240 hours.

                                      TABLE VIII                                   __________________________________________________________________________                                Condensing                                               Sodium                                                                              Polymer    Wedge Humidity                                                                              500 Hr.                                           Silicate                                                                            II (g/l                                                                             Hydrosil                                                                             Bend  240 hr.                                                                               NSS Avg.                                     Solution                                                                            (Mol/l)                                                                             solids)                                                                             2627 (g/l)                                                                           Loss (mm)                                                                            Avg. Rating                                                                           Rating                                       __________________________________________________________________________     W    .0125                                                                               1.25 10.0  22    8.5    8.8                                          Comparative Pretreatment C                                                                          15    9.0    6.0                                          __________________________________________________________________________

Example 9

In the following example, the galvanized steel test panels were prepared as in Example 8, only the pretreatments were spray applied for a 10 second contact time at ambient temperature. In some cases the components of the process were applied in separate stages, with an intervening tap water rinse. In all cases the final solution was dried in place. The separate-stage processes were preferred. Results are as follows:

                                      TABLE IX                                     __________________________________________________________________________                              240 hr.                                                                               500 Hr.                                        First       Second Wedge Condensing                                                                            Neutral                                        Treatment   Treatment                                                                             Bend  Humidity                                                                              Salt Spray                                     Stage   Rinse?                                                                             Stage  Loss (mm)                                                                            Avg. Rating                                                                           Avg. Rating                                    __________________________________________________________________________     Solution W                                                                             No  None   26    2      5.0                                            0.005M Sili-                                                                           Yes 4 g/l amino-                                                                          7     20     6.0                                            cate + 0.5  propylsilane                                                       g/l (act.)                                                                     Polymer II                                                                     0.0125M Sili-                                                                          Yes 10 g/l amino-                                                                         25    10     6.5                                            cate + 0.5  propyl silane                                                      g/l (act.)                                                                     Polymer II                                                                     Comparative                                                                            Yes 2.2 g/l as                                                                            18    9      6.5                                            Pretreatment D                                                                             CrO.sub.3                                                          __________________________________________________________________________

Example 10

The following example shows the utility of the inventive process on aluminum. On aluminum, separate stage addition of the silicate/cationic polymer solution and the silane solution was preferred. 3003 alloy aluminum was cleaned and rinsed in the same manner as the galvanized steel in Example 8. Pretreatments were spin-applied to simulate a roll-coat film application or a dip-squeegee followed by a roll-coater. A single-coat polyester paint was applied and cured following the manufacturer's specifications. Performance tests were as described above, only Acetic Acid Salt Spray (ASTM B-287) was substituted for neutral salt spray.

                                      TABLE X                                      __________________________________________________________________________                              240 hr.                                                                               500 Hr.                                        First       Second Wedge Condensing                                                                            Acetic Acid                                    Treatment   Treatment                                                                             Bend  Humidity                                                                              Salt Spray                                     Stage   Rinse?                                                                             Stage  Loss (mm)                                                                            Avg. Rating                                                                           Avg. Rating                                    __________________________________________________________________________     Solution W                                                                             No  None   24    5      3.5                                            0.0125M Sili-                                                                          No  10 g/l amino-                                                                         10    9.5    9.5                                            cate + 0.3  propylsilane                                                       g/l (act.)                                                                     Polymer IV                                                                     Comparative                                                                            No  None   0     6      9.3                                            Pretreatment C                                                                 __________________________________________________________________________

Example 11

The following example shows the utility of the inventive process on zinc-aluminum coated steel (Galvalume). As for aluminum, separate stage addition of the silicate/cationic polymer solution and the silane solution was preferred. Galvalume was cleaned and rinsed in the same manner as the galvanized steel in Example 8, and the pretreatments were applied as in Example 9. A two-coat paint system (epoxy primer, polyester topcoat) was applied and cured following the manufacturer's specifications. Performance tests were as described above, using Neutral Salt Spray, and additionally evaluating the width of blistering generated during salt spray exposure at a freshly cut edge of the panel. (The ASTM D-1654 scribe ratings were 10 for all test panels.)

                                      TABLE IX                                     __________________________________________________________________________                                     500 Hr.                                                                 240 hr.                                                                               Neutral                                        First       Second Wedge Condensing                                                                            Salt Spray                                     Treatment   Treatment                                                                             Bend  Humidity                                                                              Cut Edge                                       Stage   Rinse?                                                                             Stage  Loss (mm)                                                                            Avg. Rating                                                                           Blistering                                     __________________________________________________________________________     Solution W                                                                             No  None   31    7      5 mm                                           0.0125M Sili-                                                                          No  10 g/l amino-                                                                         34    7.5    2 mm                                           cate + 0.3  propylsilane                                                       g/l (act.)                                                                     Polymer IV                                                                     Comparative                                                                            No  None   30    7      3 mm                                           Pretreatment C                                                                 __________________________________________________________________________ 

What is claimed is:
 1. An aqueous solution comprising from about 0.08% to 2% of a cationic polymer having a charge density of from about 1.8 to 12 meq/g active polymer and a molecular weight between about 1,000 and 600,000, from about 0.5% to 1.2% of an alkaline aqueous silicate and from about 1.0% to 2.5% of an organofunctional silane.
 2. The aqueous solution of claim 1 wherein the cationic polymer is selected from the group consisting of:polydiallyl dimethyl ammonium chloride, the condensation product of dimethylamine plus epichlorohydrin plus ethylenediamine, the condensation product of dimethylamine plus epichlorohydrin, the condensation product of diethylenetriamine plus adipic acid plus epichlorohydrin, and the condensation product of hexamethylene diamine still bottoms plus ethylenedichloride plus epichlorohydrin.
 3. The aqueous solution of claim 1 wherein the alkaline aqueous silicate is selected from the group consisting of metasilicate, orthosilicate, disilicate, Na₂ O.XSiO₂ (where x=1-5), and aluminosilicate.
 4. The aqueous solution of claim 3 wherein the silicate comprises SiO₂ and Na₂ O.
 5. The aqueous solution of claim 1 wherein the organofunctional silane is hydrolyzed aminopropyltrimethyloxysilane.
 6. A method of coating a metal surface comprising contacting the metal surface with an aqueous solution prepared by dilution of a concentrate containing from about 0.08% to 2.0% of a cationic polymer having a charge density of from about 1.5 to 12.0 meq/g active polymer and a molecular weight between about 1,000 and 600,000, from about 0.5% to 1.2% expressed as SiO₂, of an alkaline aqueous silicate, and from about 1.0% to 2.5% of an organofunctional silane.
 7. The method of claim 6 wherein the cationic polymer is selected from the group consisting of:polydiallyldimethyl ammonium chloride, the condensation product of dimethylamine plus epichlorohydrin plus ethylenediamine, the condensation product of dimethylamine plus epichlorohydrin, the condensation product of diethylenetriamine plus adipic acid plus epichlorohydrin, and the condensation product of hexamethylene diamine still bottoms plus ethylenedichloride plus epichlorohydrin.
 8. The method of claim 6 wherein the alkaline aqueous silicate is selected from the group consisting of metasilicate, orthosilicate, disilicate, Na₂ O.XSiO₂ (where x=1-5), and aluminosilicate.
 9. The aqueous solution of claim 6 wherein the silicate contains SiO₂ and Na₂ O.
 10. The method of claim 6 wherein the organofunctional silane is hydrolyzed aminopropyltrimethyloxysilane
 11. The method of claim 6 wherein the metal is selected from the group consisting of aluminum, steel, galvanized steel and zinc-aluminum coated steel.
 12. The method of claim 6 wherein the aqueous solution is applied to the metal surface in a single step by spraying, flow coating, roll coating or wetting by dip-squeegee. 